Post-Buckling Behavior of Laminated Composite Cylindrical Shells Subjected to Axial, Bending and Torsion Loads 被引量：1

Post-Buckling Behavior of Laminated Composite Cylindrical Shells Subjected to Axial, Bending and Torsion Loads

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摘要 In present work, post-buckling behavior of imperfect (of eigen form) laminated composite cylindrical shells with different L/D and R/t ratios subjected to axial, bending and torsion loads has been investigated by using an equilibrium path approach in the finite element analysis. The Newton-Raphson approach as well as the arc-length approach is used to ensure the correctness of the equilibrium paths up to the limit point load. Post-buckling behavior of imperfect cylindrical shells with different L/D and R/t ratios of interest is obtained and the theoretical knock-down factors are reported for the considered cylindrical shells. In present work, post-buckling behavior of imperfect (of eigen form) laminated composite cylindrical shells with different L/D and R/t ratios subjected to axial, bending and torsion loads has been investigated by using an equilibrium path approach in the finite element analysis. The Newton-Raphson approach as well as the arc-length approach is used to ensure the correctness of the equilibrium paths up to the limit point load. Post-buckling behavior of imperfect cylindrical shells with different L/D and R/t ratios of interest is obtained and the theoretical knock-down factors are reported for the considered cylindrical shells.

作者 Yengula Venkata Narayana Jagadish Babu Gunda Ravinder Reddy Pinninti Markandeya Ravvala

机构地区 Department of Mechanical Engineering Advanced Systems Laboratory Department of Mechanical Engineering Department of Metallurgical Engineering JNTUH

出处《World Journal of Engineering and Technology》 2015年第4期185-194,共10页 世界工程和技术（英文）

关键词 POST-BUCKLING Cylindrical Shells Eigen IMPERFECTION Shapes AXIAL Compressive LOAD BENDING LOAD Torsion LOAD Arc-Length Method KNOCK-DOWN Factor Post-Buckling Cylindrical Shells Eigen Imperfection Shapes Axial Compressive Load Bending Load Torsion Load Arc-Length Method Knock-Down Factor

分类号 O34 [理学—固体力学]

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参考文献1

1王德禹,马宏伟,杨桂通.弹性圆柱壳扭转屈曲研究[J].应用数学和力学,1992,13(3):193-197. 被引量：6

共引文献5

1王德禹,张善元,杨桂通.受扭圆柱壳的大范围皱曲[J].工程力学,1993,10(1):46-51.
2马宏伟,王德禹,杨桂通.圆柱形薄壳冲击扭转屈曲的实验研究[J].固体力学学报,1993,14(4):297-304. 被引量：1
3王德禹,张善元,杨桂通.用改进的MC法分析圆柱壳扭转屈曲可靠性[J].太原工业大学学报,1993,24(4):1-6.
4张音翼.锥壳的扭转屈曲[J].南昌大学学报（工科版）,1998,20(1):40-43. 被引量：2
5张音翼.球壳的环向剪切屈曲[J].应用数学和力学,1999,20(4):405-410. 被引量：2

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2霍世慧,王富生,王佩艳,岳珠峰.复合材料机翼加筋壁板稳定性分析[J].应用力学学报,2010,27(2):423-427. 被引量：34
3邵青,何宇廷.复合材料加筋壁板轴压屈曲稳定性研究[J].空军工程大学学报（自然科学版）,2011,12(4):10-13. 被引量：5
4叶广宁,邵青,何宇廷,冯宇.铝合金加筋板轴压屈曲稳定性的有限元分析[J].机械工程材料,2013,37(3):83-86. 被引量：6
5初冠南,张彩英,鲁国春.初始缺陷对耐压结构承载性能影响[J].精密成形工程,2014,6(5):80-84. 被引量：5
6闻捷,单文娟.压缩载荷下复合材料加筋曲板屈曲后屈曲分析[J].科技创新导报,2015,12(30):135-137. 被引量：1
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10Marko Jakomin.Shallow Axi-symmetric Bimetallic Shell as a Switching Element in a Non-Homogenous Temperature Field[J].Engineering（科研）,2011,3(2):119-129.

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2015年第4期

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